DE1221784B - Device with vibratory conveyors, which simultaneously serve to convey and prepare the goods to be conveyed, for feeding solids, in particular insulating materials, to a mixing vessel containing casting resin - Google Patents

Description

Device with vibratory conveyors that convey and at the same time serve to prepare the goods to be conveyed, to supply solids, in particular Insulating materials for a mixing vessel containing casting resin. The invention relates to a device with vibratory conveyors that carry out conveying and processing at the same time of the goods to be conveyed are used to supply solids, in particular insulating materials, to a mixing vessel containing casting resin in a plant for the production of molded parts or for embedding coils, capacitors or the like.

The solids to be mixed with the casting resin, e.g. B. quartz flour, must as is known, after removal from the storage container before being fed to the mixing vessel processed, d. H. dried. In a known cast resin system, this is Processing carried out in batches in such a way that the quartz powder was transported in by hand Containers is dried by evacuation and, if necessary, heating. This method has the particular disadvantage that an additional one for processing the solids Operation is required and that the processing is only batchwise, so not continuously, can be made.

Another known cast resin plant has the same disadvantage, where the quartz sand processed in additional vessels after its processing is poured into a container that is mixed with the hardener as well as the one Resin receiving container via pipelines with valve with the mixing chamber in Connection.

They are also used for charging in another known cast resin system a casting vessel housed in an evacuated chamber taken from containers arranged above this chamber, from which the solids receiving containers as well as the containers filled with resin and hardener serve only to accommodate the components; the solid is when it's in the corresponding container is inserted, has already been processed.

Another one avoids the disadvantages of these known cast resin systems well-known system in which the solids are conveyed and processed at the same time. This eliminates the disadvantage of the other known cast resin systems, that for the preparation of the solids in addition to the promotion an additional operation is required, which consists in processing the solids.

The well-known cast resin plant described last can still be used perform more advantageously by according to the invention between the absorbing solids Storage containers and the mixing tank evacuatable vibratory conveyor are arranged. The use of evacuated vibratory conveyors results in the surprising one Effect that the Conveying performance compared to non-evacuated vibratory conveyors is considerable is enlarged.

Furthermore, the invention solves the problem in a simple manner To transport the solids from the storage tanks to the mixing vessel, by connecting several spiral conveyors or vibratory conveyor pipes in series too larger height differences can be safely overcome. This makes it possible to keep the entire system relatively low, since the storage containers do not have their Exits need to be arranged lying above the mixing vessel.

It is useful when using spiral conveyors at least the the conveyor pipes connecting the spiral conveyor with the storage containers as loop conveyor pipes to train. The system parts that vibrate against each other can be replaced by spring tube bodies be connected. These are among the system parts that vibrate against each other to understand whose vibrations are made by different drives or those in which one of the parts to be connected is permanently installed.

In the direction of transport of the solids in front of and behind the spiral conveyors Dosing locks are expediently increasing in the direction of transport Performance arranged. The same measure can be carried out in front of and behind the vibratory conveyor pipes be applied. It offers the advantageous advantages that are often desired in cast resin systems Possibility to have different areas of the plant Press to evacuate. By dimensioning the metering locks in such a way that If their performance increases in the direction of transport of the solids, the solids will jam within the system at z. B. as a result of manufacturing tolerances occurring different Conveying performance of individual parts avoided.

Often it is not enough to dry or

To prepare the solids, only evacuate the container. In this case it is proposed to make the spiral conveyor heatable. this can be achieved with little construction effort that for heating the spiral conveyor are provided with heating elements acting on their outer sheaths. These Heating elements can form the outer jacket in a shell-like arrangement with an outer one Surrounding thermal insulation.

Similar measures can also be applied to the vibratory conveyor pipes will.

In the figure is an embodiment of the device according to the invention for the supply of solids in the context of a cast resin system shown schematically. The cast resin system is essentially divided into three parts, namely Part A with the storage containers for the quartz flour, part B with the mixing kettles and the actual casting kettle and finally those arranged between parts A and B. Parts in which for the purpose of transporting and processing the quartz flour in this exemplary embodiment a spiral conveyor is arranged.

As is known, spiral conveyors work in such a way that the to be transported Solids in a by means of a drive not shown in the figure in Vibrations offset vibrating channel are thrown in the direction from below to above.

In the following, the cast resin system will be based on how it works are described in their individual parts.

The quartz powder is fed into connection 1, which is via the pipeline 2 is connected to the charging line 3 to the storage container 4. In This embodiment, the second storage container 5 is still provided, the At the moment, in the position shown, the switchover flap 6 is not connected to the pipeline2 connected.

In contrast, the storage container 4 is connected via the composite line 7 the second storage container 5 in connection, so that it can be reached via the exhaust air line 8 and the dust filter 9 is connected to the exhaust air outlet 10.

It can be seen that with a different position of the switching flaps 6 and 11 of second reservoir 5 is fed via line 2 and then the dust filter 9 is connected to the first storage container 4.

The two storage containers 4 and 5 for the quartz powder are on the outlet side via the shut-off valves 12 and 13 and the metering locks 14 and 15, respectively the conveying pipes designed as oscillating conveyor pipes with the drives 16 a and 17 a 16 and 17 in connection, which by means of the vacuum pump 18 to a desired pressure can be evacuated. The fact that this vibratory conveyor pipes through on one side the dosing locks 4, 15 and on the other side against the spiral conveyor 19 are closed vacuum-tight by the dosing lock 41, it is possible the individual parts of the system to give different pressures. This is in the Figure indicated that at the upper end of the spiral conveyor 19 the further Connection 20 is drawn for a vacuum pump.

One recognizes in the spiral conveyor 19 the vibrating trough 21, which is on upper end of the spiral conveyor, again via a metering lock 22, into the Discharge pipe 23 to the evacuated storage container 24 for the processed quartz powder transforms.

The quartz powder arrives from this storage container 24 with the interposition suitably arranged valves to the turn as evacuated vibratory conveyor pipes with the drives 25 a trained conveyor pipes 25, which to the various mixing vessels, of which only those marked 26 and 27 are shown, lead. The mixing kettle are provided with agitators 28 and 29, respectively. The quartz flour is poured over the mixing kettles the switchover flap 30 is supplied, which allows either one or the other to charge the other of the two mixing kettles shown with quartz flour. aside from that is the mixing tank via the pipes 31 and 32, the casting resin and the Pipelines 33 and 34 supplied to the hardener for the resin.

The mixture produced in the mixing vessels 26, 27 then arrives via the outlet valves 35 resp.

36 in the actual casting kettle 37 containing the casting mold.

It can be seen that between parts of the system that vibrate against one another Spring tube body 38 are arranged.

In the embodiment shown, the spiral conveyor 19 is also heatable. For this purpose, the schematically indicated heating winding 39 is used is surrounded by the thermal insulation40 and in turn the outer wall like a shell of the spiral conveyor 19 surrounds.

It will be appreciated that the various supply pipes, for example the conveying pipes 25 can be designed to be thermally insulated and heatable.

The invention is not limited to the embodiment shown in the figure limited. For example, it is possible to overcome a greater difference in altitude between the shut-off valves 12 and 13 on the storage containers 4 and 5 on the one hand and the entrance of the storage container 24 for the processed quartz flour on the other hand to arrange several spiral conveyors in series. Furthermore, the Use of several spiral conveyors parallel to one another for the purpose of processing several Substances may be required. In suitable places there can be scales or volumetric Measuring devices be used.

It should finally be noted that surprisingly results has that the use of spiral conveyors with evacuated interior space is an enlargement the conveying capacity compared to the capacity of non-evacuated spiral conveyors brings with it, so that the advantages of a reduction already mentioned above the amount of work and extensive freedom in the choice of the location of the exits the reservoir 4 and 5 opposite the inputs of the mixing vessel 26 and 27 without Reduction of the transport speed, even with an increase in the transport speed be achieved. Another advantageous feature of the system according to the invention is it should be emphasized that it is in contrast to previous technology in this area one continuous supply of the processed solids to the storage containers is permitted.

Claims (8)

Claims: 1. Device with vibratory conveyors, which at the same time serve to convey and process the goods to be conveyed, to supply solids, in particular insulating materials, to a mixing tank containing casting resin at a Plant for the production of molded parts or for embedding coils, capacitors or the like: characterized in that between the storage containers receiving the solids (4, 5) and the mixing vessel (26 or 27) evacuated vibratory conveyor (19, 25) arranged are. 2. Apparatus according to claim 1, characterized in that between the storage containers (4, 5) holding the solids and the one with an agitator (28 or 29) provided mixing vessel (26 or 27) spiral conveyor (19) can be evacuated are arranged. 3. Apparatus according to claim 2, characterized in that at least the conveyor pipes connecting the spiral conveyor (19) to the storage containers (4, 5) (16, 17) are designed as vibratory conveyor pipes. 4. Device according to one of claims 1 to 3, characterized in that that against each other- vibrating system parts connected by spring tube body (38) are. 5. Device according to one of claims 2 to 4, characterized in that that in the transport direction of the solids in front of and behind the spiral conveyors (19) and optionally metering locks in front of and behind the oscillating conveyor pipes (16, 17) (14, 15) are arranged with increasing power in the direction of transport. 6. Device according to one of claims 1 to 5, characterized in that that the vibratory conveyor (19, 25) can be heated. 7. Apparatus according to claim 6, characterized in that for heating the vibratory conveyor (19, 25) acting on their outer jackets heating elements (39) are provided are. 8. Apparatus according to claim 7, characterized in that the heating elements (39) with the outer shells of the vibratory conveyor (19, 25) in a shell-like arrangement an outer thermal insulation (40) surrounded. Considered publications: German Patent Specifications No. 1080 927, 1,021,792, 892,974, 618502, 441096; German patent application Sch 1300 XI / 81 e (announced June 3, 1953); German utility model No. 1790612; U.S. Patent No. 2474952.